Crop Protection & Environmental Biology

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    "Biochar in combination with compost reduced Pb uptake and enhanced the growth of maize in lead (Pb)‑contaminated soil exposed to drought stress "
    (Springer, 2010) Adejumo, S. A.; Arowo, D. O.; Ogundiran, M. B.; Srivastava, P.
    Crops are constantly faced with the challenges of different abiotic stresses on the field. Development of sustainable approach for stress amelioration on crop is pertinent. This study investigated the ameliorative roles of biochar and compost on maize crop simultaneously subjected to drought and heavy metal (Pb) stresses. Metal stress was imposed by growing maize on Pb-contaminated soil while drought stress was imposed by reducing the soil field capacity to 25 and 50%. Four levels (0, 5, 10 and 15 t/ha) of biochar and compost replicated three times as well as their combinations were used. Pb uptake, translocation factors, photosynthetic pigments, osmolytes (proline and cysteine), biomass accumulation in stressed maize crop, and post-cropping soil Pb concentration were determined. Combination of stresses reduced biomass accumulation in maize. Biochar in combination with compost, however, enhanced biomass production in stressed maize crop by 50–75% compared to unamended soil (control). Proline accumulation was more under the single stress of heavy metal (100% FC) compared to combined stresses. Unlike proline, combined stresses of Pb and 50% FC enhanced chlorophyll and cysteine accumulation more than single stress. Their concentrations were further increased with amendments compared to control. Pb accumulation in maize crop was more under combined stresses than single stress (100% FC). Compared to other soil amendments, application of biochar alone at 10 t/ha, generally reduced Pb uptake by maize and post-cropping soil Pb concentration. Biochar and compost reduced Pb uptake, and enhanced biomass and osmolyte production in stressed maize crop.
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    Mechanisms of lead and chromium hyperaccumulation and tolerance in plant
    (Enproct Consultants Ltd., 2019) Adejumo, S. A.
    Heavy metal contamination of agricultural lands poses serious threat to food security. Lead (Pb) and Chromium (Cr) are among the most toxic heavy metals reported but least studied. Their presence in soils has detrimental effects on crop productivity. Among different ways of remediating contaminated sites, phytoremediation technology like phytoextraction is now receiving greater attention. It involves the use of plants for cleaning heavy metal polluted media. It is environment-friendly, aesthetically appealing, cost-effective and can be applied in-situ. The plant species that are used for this process are metal tolerant and some of them called hyperaccumulators possess the ability of accumulating high concentrations of specific metals in the above-ground tissue. They have developed several mechanisms both at the genetic and molecular levels for their adaptability and efficiency. The molecular mechanisms could either be enzymatic or non-enzymatic. The enzymatic mechanism involves the participation of different antioxidant enzymes while the non-enzymatic strategies are based on the production of different antioxidant compounds for scavenging reactive oxygen species which are produced in heavy-metal stressed plants. For tolerance and metal accumulation in the above-ground parts of an hyperaccumulator, metal homoestasis through over-expression of different genes have also been reported. In this review, heavy metal toxicity, phytoremediation options and mechanisms of hyperaccumulation and tolerance in plants are discussed with focus on Pb and Cr.
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    Evaluation of lead and chromium tolerance and accumulation level in Gomphrena Celosoides: a novel metal accumulator from lead acid battery waste contaminated site in Nigeria
    (Taylor & Francis, 2019) Adejumo, S. A.; Tiwari, S.; Thul, S.; Sarangi, B. K.
    Biology, tolerance, and metal (Pb and Cr) accumulating ability of Gomphrena celosoides were studied under hydroponic conditions. The seedlings were raised in Hoagland’s solution containing different concentrations of Pb (0, 500, 1000, 1500, 2000, 3000, 4000, and 5000mg l_1) and Cr (0, 50, 100, 150, 200, 300, and 400mg l_1). Biomass and metal accumulation in different plant parts were determined at seven (7) and fourteen (14) days after stress. Antioxidant enzyme activities, protein, and proline contents were estimated in stressed and unstressed plants. Gomphrena celosoides was able to tolerate Pb and Cr concentrations up to 4000 and 100mg l_1, respectively in hydroponic solution. Metal accumulation was concentration and duration dependent with the highest Pb (21,127.90 and 117,985.29mg kg_1) and Cr (3130.85 and 2428.90mg kg_1) in shoot and root, respectively found in the plants exposed to 5000mg l_1 Pb and 400mg l_1 Cr for 14 days. Proline, antioxidant enzyme activities, and protein contents were the highest in plant exposed to higher Pb and Cr concentrations for 7 and 14 days. Gomphrena celosoides could be considered as Pb and Cr accumulator with proline and increase in antioxidant enzyme activities being the tolerance mechanisms
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    Heavy metal (Pb) accumulation in metallophytes as influenced by the variations in rhizospheric and non- rhizospheric Soils physico-chemical characteristics.
    (Taylor & Francis., 2018) Adejumo, S. A.; Tiwari, S.; Shinde, V.; Sarangi, B. K.
    Activities at root-soil interface determine the solubility and uptake of metals by plants. Metal accumulation in plant species (Imperata cylindrical, Cynodon dactylon, Eleucine indica, Gomphrena celosoides, Sporobolus pyramidalis, Chromolaena odorata and Rhynchospora corymbosa) growing on Pb contaminated site as influenced by variations in physico-chemical characteristics, dissolved organic matter (DOM), Pb fractionation and different functional groups (using Fourier Transmittance Infra-red) of rhizospheric and non-rhizospheric soils was assessed. The electrical conductivity (2660–5520 ms) and Pb concentrations (51390.0–64080.0 mg/kg) were more in non-rhizospheric than rhizospheric soils having 276 ms to 3160 ms EC and 3289.0 to 44850.0 mg/kg Pb. More nutrients, DOM and carbohydrates functional groups (C-O; 1100 -1000 and O-H; 3700–3600) were found in rhizospheric compared to non-rhizospheric soils. The pH was slightly acidic (5.0–5.54) and E. indica with the lowest pH (5.0) accumulated highest Pb concentrations in shoot (8030 mg/kg) and root (16380 mg/kg) while C. odorata with highest values of pH, P, Ca and Mg in rhizospheric soil accumulated the least (root; 331.6 and shoot: 209.0 mg/kg). Pb was more in organic and residual fractions of rhizospheric and non-rhizospheric soils respectively. Reduction in pH, EC coupled with nutrients and DOM availability increased Pb uptake by plants.
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    Poultry litter management in Lagos and effects of its soil application on the growth of okra (Abelmoschus esculentus
    (Academic Journals., 2015) Ogundiran, M. B.; Ademola, E. F.; Adejumo, S. A.
    Poultry litter constitutes one of the animal wastes that are produced in large quantity. Information on the quantity generated may enhance planning for its utilisation. Quantification of poultry litter (PL) generated and its utilisation is rare in Nigeria. This study was designed to investigate PL management in Lagos, Nigeria and possible utilisation potential. Questionnaires were distributed to poultry farmers in Lagos to evaluate poultry waste generation and management practices. Additionally, PL was also quantified from selected farms. Greenhouse experiments were conducted to evaluate the agronomic effects of raw and composted PL (each applied at 0, 5, 10 t/ha and replicated four times) on the growth and heavy metals uptake of Abelmoschus esculentus (okra). Poultry farms were situated in the residential, non-residential and industrial areas with non-residential areas housing a larger percentage. About 53% of the farms were located near rivers or streams. A few of the poultry farmers treated and utilised PL using chemical and physical methods before disposal. Also, no record of waste utilization was found in 72.3% of the farms. About 87.4% of the farmers quantified the PL generated. About 89.3% of the farmers disposed PL in open dumpsites. Mean poultry litter generated from four farms per bird/day was 0.11 ± 0.001 kg. The HMs contents in plants grown on the poultry treated soils were below the permissible levels in soil. The heavy metals concentrations in the leaves and fruits (which are usually the edible parts of okra plants) for all the treatments fall within WHO/FAO permissible levels. Overall, soil amended with 5 t/ha composted poultry litter performed best in terms of fruit production and reduction in HMs uptake. The use of composted poultry litter as fertiliser at calculated quantity will increase PL management.
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    Seasonal variations in distribution, heavy metal uptake and proline production of native plants growing on Pb-contaminated site in Ibadan, South-Western,
    (Ecological Society of Nigeria, 2015) Adejumo, S. A.; Adeosun, A. A.; Olaniyan, A. B.; Awodoyin, R. O.
    Effects of seasonal variations on metal (Lead, Chromium and Cadmium) uptake, proline concentration, density and distribution of metallophytes inhabiting heavy metal polluted site in Ibadan, South-Western Nigeria were investigated. Vegetation surveys and Relative Importance Values (RIV) of different plant species were carried out both at the rainy and dry seasons. The metal uptake and partitioning in plants at different seasons as well as proline content were also determined. The results showed that the Relative Importance Value (RIV), metal uptake and proline production by plants varied depending on the prevailing environmental conditions. During both sampling seasons, same plant species were enumerated on the contaminated site. However, their RIV varied in the two seasons. Sporobolus. pyramidalis was prevalent in the rainy season while Imperata cylindrica had the highest RIV during the dry season. Heavy metal accumulation in different plant species also differed depending on the sampling period and higher concentrations of metals were accumulated during the rainy season compared to the dry season except in Gomphrena celosioides with Pb being the highest at both seasons. The proline concentrations were also species and season dependent. The concentrations varied in different plant species and G. celosioides accumulated more during both seasons while Eleucine indica and Rhyncospora corymbosa had higher concentrations during the dry season compared to rainy season. Plant species abundance, metal uptake and osmolyte production by metallophytes are therefore dependent on the prevailing environmental conditions.
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    Comparative study of different rates of composts made from mexican sunflower (Tithonia diversifolia) and cassava peels on maize growth on lead contaminated soil.
    (David Publishing Company, 2013) Adejumo, S. A.; Togun A. O.; Adediran, J. A
    Attempts made by several researchers to reduce the effects of soil contamination and enhance crop growth are either expensive or ecologically-unacceptable. Greenhouse experiment was conducted to test for the effects of different rates of Mexican Sunflower and Cassava peels composts on remediation of lead contaminated soil and growth of maize planted on it. Application rates of 0 t ha-1 (R1), 10 t ha-1 (R2), 20 t ha-1 (R3), 30 t ha-1 (R4) and 40 t ha-1 (R5) were used and arranged in a Completely Randomized Design. It was observed that compost application enhanced the growth and yield of maize on this soil compared to control. Higher application rates (30 t/ha and 40 t/ha) of both composts significantly increased the plant height, number of leaves, leaf area and dry matter yield of maize planted on the contaminated soils. An increase of up to 95% in maize biomass was achieved with higher rate of compost application. In terms of heavy metal concentration in the maize tissue, application of compost reduced the Pb concentration in the plant tissue compared to control. Maize growth can be improved on contaminated site using compost prepared from Mexican Sunflower and applied at the rate of 30 and 40 t ha-1.
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    Influence of different types of organic amendments on soil remediation and performance of maize grown on a lead contaminated soil.
    (Institute of Agricultural Research and Training, Obafemi Awolowo University, Moor Plantation, Ibadan, 2012) Adejumo, S. A.; Togun A. O.; Adediran J. A.
    Accumulation of heavy metals in agricultural soils rcsults in long term environmental problem, elevateci heavy metal uptake by crops and food poisoning. Remediation of sites contaminateci by heavy metals is therefore pertinent. Incubation and greenhouse studies were conducted to test for thè effects of different types of compost on soil remediation and thè growth of maizc planted on rcmediated battery wastes contaminated soil. Composts made from five different plani materials (Soyabean stover (SS), Maize Stover (MS), Mexican Sunflower (SW), Cassava Wastes (CW) and Neem Seeds (MS) as well as Poultry Manure (PM) alone and Organo-mineral fertilizer (OM) were used. Each was applied at thè rate of 20 t/ha. Pre-cropping soil Chemical compositions showed that lead concentration (148000 mg/kg) was significantly higher than thè permissible level (300 mgkg1) at thè study site. Results of incubation studies revealed a progressive reduction in heavy metal concentrations for thè sampling periods. MSW and CW composts significantly reduced soil lead by 39% and 38% respectively followed by SS (33%), MS (28%), PM (26%), NS (25%) and OM (23%). Application of compost to thè contaminated soil also enhanced vegetative growth of maize when compared with control. SS, CW, NS, MS, MSW, OM, and PM increased thè dry matter yield by 49%, 60%, 56%, 24%, 68% , 55% and 27% respectively over control. Unlike thè maize plants grown on organic amendcd contaminated soil, control Dlants started showing toxicity symptoms such as necrotic lesions, chlorosis, wilting and eventual death. Organic imendment also increased nutrients uptake by maize crop compared to control plants. Generally organic amendments proved effective in remediation of heavy metal contaminated soil and had ameliorative effects on crop growing on contaminated soil. Among thè organic amendments, MSW and CW performed better.
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    Re-establishment of vegetation on soil contaminated by heavy metals in response to Mexican sunflower and cassava peels composts.
    (Enproct Consultants Ltd, 2012) Adejumo, S. A.; Awodoyin, R. O.; Togun, A. O.
    Soil contamìnation by industriai wastes contributes greatly to poor soil fertility, ecological imbalance and phytotoxicity. To restore soil fertility and encourage plant growth, remediation of contaminated land becomes pertinent. The use of organic amendment has been reported to be effective for restoration of heavy metal contamiflàted soil Effects of Mexican Sunflower (Tithonia diversifolia: MSC) and Cassava peels (Manihot esculentum: CPC) composts, each applied at 20 and 40 t/ha as well as inorganic fertilizer (NPK 20:10:10) applied at 100 kgN/ha were investigated for restoration and re-vegetation of a degraded battery wastes contaminated site. The experiment was laid out in a Randomized Complete Block Design (RCBD). Ordination method was used to measure flora diversity and abundance among treatments. The species ìmportance in thè eco System was determine d using Relative Importance Values (RIV) before application of compost (BAC), at 4 weeks after compost application (4WACA) and at 8 weeks after compost application (8WACA). Also, thè dominance and plant species distribution at thè three periods were determined from thè Dominance, Shannon and Equitabilty indices. Application of composts increased thè number of individuai plants on thè contaminated site from 1177 at BAC to 2276 at 8 WACA. Species richness increased from 7 species at BAC to 15 species at 8 WACA. Gomphrena celosoides L. had thè highest RIV value (72.4%) at BAC, 67.0% and 49.6%> at 4 WACA and 8 WACA respectively. The dominance index (DI) decreased from 0.8557 at BAC to 0.6008 at 8 WACA. At 8 WACA thè Shannon index (0.9976) and Equitability index (0.3684) were highest. Application of MSC at 40t/ha (MSC40) reduced Pb level in thè soil by 71.6% followed by CPC40 (67.3%), MSC20 (66.1%) and least in CPC20 (49.5%). NPK fertilizer application had no effect on soil Pb level compared to control. Addìtion of compost significantly increased thè plant nxutrients including phosphorus, nitrogen, calcium and magnesium in thè soil compared to inorganic fertilizer. The use of compost reduced Pb contamination, improved soil fertility, enhanced re-vegetation and flora diversity of battery waste contaminated site more than inorganic fertilizer. The prevalence of G. celosioides may suggest that it has potentials for thè phytoremediation oflead-acid battery polluted soil.